Induction of lactogenic receptors. II. Studies on the liver of hypophysectomized male rats and on rats bearing a growth hormone secreting tumor.

The role of growth hormone (GH), as well as prolactin and ACTH, in the induction of the PRL receptor was investigated both in hypophysectomized male rat livers and in the livers of male rats bearing a GH secreting tumor. After 7 days of s.c. injections, specific binding (% SB) of PRL in controls and rats treated with oPRL, hGH, ACTH, hCG, estradiol (E2), or testosterone (T) was approximately 1%. Treatment with oPRL plus ACTH increased SB to 4%; adding E2 to this combination produced a further increase to 8%, whereas the addition of T decreased hepatic binding to 1%. Combination of hGH with ACTH was most effective, giving a SB of 33%, which is similar to that observed in the liver of rats bearing a GH secreting tumor (36%). These studies suggest that GH acts synergistically with PRL and/or ACTH to increase lactogenic binding sites in the male rat liver and that sex steroids have a modulating effect on this action.     

Ontogenesis of hepatic growth hormone receptors in the rat

Detailed ontogenic studies of the binding of human (hGH) and bovine growth hormone (bGH) have been performed in liver preparations from male and female rats during the neonatal, weanling, pre- and post-pubertal periods. Specific binding of both hormones was readily detected at all ages, with no apparent interference due to occupancy by endogenous hormones. No sex difference in binding was observed prior to weaning (22 days) for hGH, which binds to both somatotrophic and lactogenic sites. However, after weaning a marked sex-related dissociation in the pattern of binding did occur, with female rats binding 3-4 times more hGH than in the pre-weaning period and male rats binding hGH to only half their pre-weaning levels. A very similar pattern was seen for binding of bGH (which binds only to somatotrophic sites) except that in male rats, the post-weaning levels did not fall. Binding patterns for either hGH or bGH prior to weaning did not mirror the known age-related pattern of circulating rat GH levels, suggesting the absence of a definitive auto-regulation system for the GH-GH receptor system under normal circumstances in vivo. The possible role of the weaning process per se in the post-weaning changes of GH binding seen in male and female rats still requires elucidation.     

Induction of specific human growth hormone binding sites in rat liver by human growth hormone.

125I-Labeled hGH was bound to liver plasma membranes which were obtained from female rats. The binding was displaced by hGH, hPRL, bPRL, rPRL and bGH but not by rGH. This result indicated that hGH was bound to lactogenic binding sites in rat livers. After hypophysectomy, the binding was markedly decreased. Treatment of hypophysectomized rats with hGH (80 micrograms/day) for 10 days increased the binding sites for hGH. These binding sites were different from those found in normal female rat livers because of their high affinity and specificity for hGH. These results indicate that hGH induces specific binding sites for hGH in rat livers.     

Ovine prolactin and human growth hormone derivatives. Specific modification of their alpha-amino groups

The alpha-amino group of ovine prolactin (oPRL) and human growth hormone (hGH) was selectively modified by transamination with glyoxylic acid. No difference was found in the binding capacity of transaminated oPRL to rat liver lactogenic receptors with respect to its control, although both samples showed a decrease in its binding capacity with reference to the native hormone. This decrease was due to conformational changes caused by the reaction conditions and not by the transamination itself, as shown by the circular dichroism spectra. Transaminated hGH retained the full binding capacity of the hormone. These results suggest that the alpha-amino group is not relevant for the binding to lactogenic liver receptors in both lactogenic hormones.     

Differential in vivo activities of bovine growth hormone analogues

In rodents, bovine (b) growth hormone (GH) binds only to GH receptors, while human (h) GH binds to both GH and PRL receptors. The phenotypic consequences of expression of bGH and hGH in transgenic mice are different and, in some cases, opposite. In the present study, site-directed in vitro mutagenesis of the bGH gene was used systematically to eliminate its differences from hGH at one, two, three or four sites suspected of conferring lactogenic activity: D11, H18, S57 and T60, respectively (corresponding to sites 12, 19, 57 and 60 of the bGH molecule). The resulting bGH analogues were expressed in cell lines and in transgenic mice. All of the seven bGH analogues produced retained their ability to bind to GH receptors and exhibited somatogenic activity in vitro and in vivo. However, none of them were able to bind to PRL receptors or to elicit detectable lactogenic response in vitro. Transgenic animals expressing any of the generated analogues were characterized by gigantism and splanchnomegaly. The effects of expression of each of the double, triple or quadruple mutants on the seminal vesicle weight resembled the effects of wild-type hGH and differed from the effects of expression of wild-type bGH. There were differences between the effects of the expression of different bGH analogues on plasma PRL levels and on the PRL response to pharmacological blockade of catecholamine synthesis. Plasma LH levels in ovariectomized females were suppressed by several of the analogues tested, an effect not seen in animals expressing wild-type bGH or hGH. Dopamine turnover in the median eminence of male mice was also altered in animals expressing different bGH analogues but not in those expressing wild-type bGH or hGH. In ovariectomized females, the effects of different bGH analogs on the turnover of dopamine and norepine phrine in the median eminence included changes resembling those detected in animals expressing hGH, as well as alterations differing from the effects of bot h bGH and hGH.The results indicate that biological actions of these bGH analogues cannot be characterized simply in terms of enhanced or reduced somatogenic or lactogenic activity and raise a possibility that different sites, domains or features of the tri-dimensional structure of GH are involved in its actions on different cellular targets     

Pharmacokinetics of radioiodinated growth hormones in the turtle Chrysemys dorbigni

Growth hormone binding proteins (GHBP) have been identified in the blood of many species. The aim of the present work is to study the physiological role of the GHBP in the turtle serum which we recently described. Binding studies were carried out using in vivo pharmacokinetic and chromatographic techniques as well as in vitro methods. When (125)I-GH was injected in physiological concentration into Chrysemys dorbigni turtles, the first step of pharmacokinetics was the binding of a significant fraction of the labeled GH by the GHBPs present in serum. The decay curve followed a three compartments model and gave the equation: Ae(-alphat) + Be(-betat) + Ce(-gammat). The fast compartment with t(1/2) of 14.4 min or 25.2 min, for hGH and bGH represents 30.3% and 18.9% of total radioactivity, respectively, at hypothetical time zero (not experi mental). Chromatographic studies reveal that this rapid compartment represents free GH. The second and third compartments represent complex forms between GH and GHBPs present in the turtle serum, and represent 70% and 80% of total radioactivity for hGH and bGH, respectively. In vitro chromatographic studies showed direct evidence of the presence of GHBPs in the turtle serum. The presence of these GHBPs changed the pharmacokinetics of labeled GH in plasma and the subsequent liver uptake of GH. The labeled hGH or bGH binds to turtle serum in similar proportion, but maximal liver uptake of these hormones are completely different (L/B ratio of 9.2 +/- 0.6 (n = 5) for ( 125)I-hGH and 4.8 +/- 0.3 (n = 7) for (125)I-bGH). The reasons for these differences could be that human GH binds to lactogenic and somatotropic receptors and bovine GH binds only to somatotropic receptors.     

Down-regulation of prolactin receptors in the liver, mammary gland and kidney of female virgin rat, infused with ovine prolactin or human growth hormone

Down regulation of prolactin (PRL) receptors resulting from i.v. infusion of oPRL or human growth hormone (hGH) into female virgin rats was demonstrated. A decrease of over 85% in the number of free receptors was achieved within 15 - 30 min using infusion of oPRL or hGH at 25 micrograms/h and remained at this level until the end of infusion. Ovine growth hormone or recombinant bovine growth hormone at ten-fold higher concentration had no effect at all. The decrease in the specific binding resulted from a lower number of binding sites and not from change in the dissociation constants. The decrease in the total receptors in the liver was more gradual and leveled off at 40 - 50% of the initial value. Our results suggest that a change in blood PRL or hGH level may lead to a new steady state in the number, occupancy and distribution of prolactin receptors.     

Effect of ovine prolactin on serum somatomedin bioactivity in hypophysectomized female rats.

Ovine prolactin (oPRL) increased serum somatomedin (SM) bioactivity in hypophysectomized female rats. ACTH, in small but not large doses, augmented this oPRL effect. These results suggest that in the female rat PRL may regulate SM production. Adrenal factors may variably modulate SM production or serum SM bioactivity.     

The specificity of binding of growth hormone and prolactin to purified plasma membranes from pregnant-rabbit liver.

The binding of 125I-labelled human growth hormone (hGH) to a purified plasma membrane preparation from the liver of pregnant rabbit, and to receptors solubilized from this fraction with Triton X-100, was dependent on time, temperature, the cations used and the receptor concentration. Solubilization did not affect the binding properties of the receptors at low concentrations of Triton X-100. Some somatogenic hormones, such as bovine GH, and some lactogenic hormones, such as ovine prolactin, displaced 125I-labelled hGH from purified plasma membranes and solubilized receptor preparations, but GHs and prolactins from various other species were rather ineffective. The results indicate that although there are binding sites for hGH in these pregnant rabbit liver membranes, few of these are specifically somatogenic or lactogenic. The binding properties of the purified plasma membranes are similar to those of a microsomal preparation studied previously, suggesting that the complex nature of the binding of hGH is not due to the heterogeneity of cellular membranes used to study binding, but is a property of the receptors associated with plasma membranes.     

Species variation in the binding of hGH to hepatic membranes

The binding of 125I-labeled human growth hormone (hGH) to liver membranes from several different species was studied to determine the lactogenic or somatotropic hormone nature of the receptors. Liver membranes from several species of the class of Mammalia bound significant quantities of 125I-hGH. Goat, sheep, rat, mouse, and rabbit liver membranes exhibited the highest binding with cow, pig, human, and hamster liver membranes exhibiting severalfold less binding. The binding of the dog and cat liver membranes exhibited relatively high nonspecific binding. Fish and chicken liver membranes did not bind appreciable quantities of 125I-hGH. In all species except for dog and cat in which 125I-hGH bound to the membranes, hGH was the most effective competitor for binding. The mean ID50 for hGH and all membranes was 2.4 X 10(-9) M. Human liver membranes exhibited the smallest ID50, 4.9 X 10(-10) M. In sheep liver membranes, bovine growth hormone (bGH) was equipotent to hGH in competing for 125I-hGH binding. bGH also demonstrated significant competition for 125I-hGH binding in pig and cow membranes. Ovine prolactin (oPrl) exhibited significant competition for 125I-hGH only in rodent membranes. The ID50 for oPrl was 3- to 10-fold greater than for hGH in the rat, hamster, and mouse liver membranes. The ID50 for oPrl in the sheep liver membranes was 13-fold greater than that of hGH. We conclude the following: (1) There appears to be a species specificity of hGH binding that may be phylogenetically significant and may result from variations in the structure of the hormone or the receptor. (2) The competitive binding properties of hGH are fairly consistent within phylogenetic orders. (3) The simple designation of lactogenic or somatotropic for hormones and receptors is insufficient to characterize the binding properties of this group of hormones.     

Monoclonal antibodies against rabbit mammary prolactin receptors. Specific antibodies to the hormone binding domain

Three monoclonal antibodies (M110, A82, and A917) were obtained by fusing myeloma cells and spleen cells from mice immunized with partially purified rabbit mammary gland prolactin (PRL) receptors. All 3 antibodies were capable of complete inhibition of 125I-ovine prolactin (oPRL) binding to rabbit mammary PRL receptors in either particulate or soluble form. M110 showed slightly greater potency than oPRL in competing for 125I-oPRL binding. These antibodies also inhibited PRL binding to microsomal fractions from rabbit liver, kidney, adrenal, ovary, and pig mammary gland, although A82 showed poor inhibition in pig mammary gland. There was no cross-reaction of any of the 3 monoclonal antibodies (mAbs) for the other species tested: human (T-47D breast cancer cells) and rat (liver, ovary). In order to confirm that these antibodies are specific to the binding domain, antibodies were purified, iodinated, and binding characteristics were investigated. 125I-M110 and 125I-A82 binding was completely inhibited by lactogenic hormones, whereas nonlactogenic hormones did not cross-react. Competition of 125I-M110 by oPRL (ID50 = 0.44 nM) was comparable to that of 125I-oPRL by unlabeled oPRL (ID50 = 0.35 nM), while 125I-A917 binding was only partially competed (30-60%) by lactogenic hormones. Tissue and species specificity of labeled antibody binding paralleled results of binding inhibition experiments using 125I-oPRL. In addition, A82 and A917 completely inhibited 125I-M110 binding. In contrast, 125I-A82 binding was stimulated by A917 and 125I-A917 binding was stimulated by A82. These findings indicate that monoclonal antibodies can be readily prepared from partially purified PRL receptors from rabbit mammary gland; two antibodies (M110 and A82) are hormone binding site specific while the other (A917) binds a domain partially but not entirely distinct from the hormone binding site, and that all three antibodies have strong species specificity.     

Specific binding sites for growth hormone in cultured mouse thymic epithelial cells

Growth Hormones bound specifically to murine Thymic epithelial cells, which represent the major component of thymic micro-environment and can be modulated by pituitary hormones. The Kds found with human growth hormone and bovine growth hormone were 0.14 and 0.27 nM with a Bmax 0.56 and 0.35 fmol/10(6) cells respectively. Competition experiment analysis showed ED50 of 0.24 nM for hGH, 0.46 nM for rGH, 0.71 nM for bGH, 11.8 nM for hPRL and 11.2 nM for oPRL. No specific binding of [125I]-oPRL was observed under the same conditions. Both hPRL and bGH showed a negative regulatory effect on the number of the hGH binding sites when incubated with the culture for three days. The presence of GH receptors on Thymic epithelial cells provides biochemical evidence for the effect of GH on thymic function.     

Suppression of Receptors for Prolactin and Estrogen in Rat Liver Due to Treatment with the Growth Hormone Analogue Produced by the Tapeworm Spirometra Mansonoides

Abstract

Somatogenic hormones play an important role in regulation of receptors for prolactin (PRL) and estrogen. Plerocercoids of the tapeworm, S. mansonoides produce a factor which mimics some, but not all of the actions reported for GH. Intact female rats were subjected to a constant infusion of plerocercoid growth factor (PGF) via a subcutaneous infection for two weeks to determine if PGF influences receptors for PRL, GH or estradiol. The rate of weight gain in the PGF-treated rats was accelerated in spite of a marked reduction in serum GH. Partially-purified PGF specifically displaced [¹²⁵I]hGH from rat liver receptors but microsomes prepared from rats treated with PGF specifically bound significantly less [¹²⁵I]hGH than microsomes from control rats. The reduction in [¹²⁵I]hGH binding was not due to occupancy or to a change in affinity but to a suppression in receptor concentration. Scatchard analysis of [³H]estradiol binding in rat liver cytosols shows a 50% reduction in receptor concentration in the PGF-treated group. Specific binding of [³H]estradiol in anterior pituitary was also suppressed by PGF treatment.     

Identification of somatogenic binding sites in liver microsomes from normal mice and transgenic mice expressing human growth hormone gene.

Somatogenic binding sites were detected and characterized in microsomal preparations from livers of normal mice and mice expressing metallothionein-I/hGH (mMT/hGH) hybrid gene, using 125I-labelled bovine or human GH, or a photoreactive derivative of hGH (125I-AP-hGH1). Specific binding of 125I-bGH was detected in liver microsomes from both normal and transgenic mice with an apparent Kd of 2 nM. 125I-hGH was partially displaced by bGH. 125I-AP-hGH1 was covalently bound to the microsomal preparations, and bGH prevented the formation of the 130 kDa species with no appreciable effect on 63 kDa and 70 kDa lactogenic complexes.     

Somatotropic and lactotropic receptors in transgenic mice expressing human or bovine growth hormone genes

The somatotropic and lactotropic receptors were studied in liver microsomal preparations from transgenic mice carrying the human growth hormone (hGH) or bovine growth hormone (bGH) gene fused to mouse metallothionein-I (MT) or phosphoenolpyruvate carboxykinase promoter/regulator (PEPCK). Specificity studies indicated that, similarly to normal mice, liver microsomes from the transgenic animals possess a mixed population of somatotropic and lactotropic binding sites. In transgenic animals of both sexes, the binding capacity of somatotropic receptors was significantly increased without corresponding changes in affinity. Expression of the MT-hGH hybrid gene was associated with the induction of somatotropic receptors which was approximately twice as great as that measured in animals expressing the MT-bGH hybrid gene. The binding capacity of lactotropic receptors in liver microsomes (quantitated, by the use, of labelled ovine prolactin) was increased 2–3 fold in transgenic females and approximately 10-fold in transgenic males as compared to the respective normal controls. We conclude that lifelong excess of GH up-regulates hepatic GH and prolactin receptors, and that lactogenic activity of GH is not essential for induction of prolactin receptors in the liver of transgenic mice.     

Chimeric bovine-human growth hormone prepared by recombinant DNA technology: binding properties and biological activity

A chimeric bovine GH (amino acids Met-Asp-Gln-greater than 1-23) and human GH (hGH) (amino acids 24-191) plasmid was constructed and expressed in Escherichia coli. The purified protein (chimeric GH) exhibited a 2-3 order of magnitude lower affinity toward lactogenic receptors in Nb2 lymphoma cells, microsomal fractions from bovine mammary gland and male rat liver. The affinity towards somatogenic receptors in IM-9 human lymphocytes and male rat liver was decreased to a much lesser degree. This diminished affinity towards lactogenic receptors was accompanied by a parallel decrease in the ability of the chimeric GH to stimulate proliferation of Nb2-11C lymphoma cells and the lipogenesis in bovine mammary gland. This implies that occupation of the respective receptors by either chimeric GH or hGH leads to identical postreceptoral effects. The chimeric GH was also capable of down-regulating the lactogenic receptors in Nb2 lymphoma cells and was recognized by three anti-hGH monoclonal antibodies. These and previously published results indicate that the N-terminal part of hGH is essential for the high affinity binding to lactogenic receptors and subsequent biological effect. Removal or replacement by a corresponding part of bovine GH converts the hormone, respectively to weak antagonist or agonists. Analysis of our data, based on hydropathy index leads us to suggest that the high affinity binding site of the hGH towards lactogenic receptors is mainly confined to amino acids nos. 8-18.     

Alanine-scanning mutagenesis of human prolactin: importance of the 58-74 region for bioactivity.

We have generated 10 alanine mutants of human PRL (hPRL), a member of the PRL/GH family, to investigate the involvement of the highly conserved 58-74 region in the biological behavior of the protein. When treated with polyclonal anti-hPRL antibodies, all mutants were immunologically indistinguishable from the unmodified hPRL, and circular dichroism analyses indicated that their alpha-helix content was similar to that of the unmodified hormone. Mutations C58A, K69A, and, to a lesser extent, P66A affected drastically the ability of hPRL first to bind to the lactogenic receptor and second to stimulate the proliferation of Nb2 lymphoma cells, proving the importance of the 58-74 peptide segment for hPRL bioactivity. Binding affinities of these mutants to the Nb2 lactogenic receptor have been compared to lactogenic binding data previously obtained for several mutants of hGH. The comparison reveals that the residues involved in the biological properties of the two proteins are not at topologically equivalent positions. Hence, we suggest that the binding of these hormones to the lactogenic receptors occurs through a different molecular mechanism having distinct requirements at the residue level.     

Involvement of lysine residues in the binding of ovine prolactin and human growth hormone to lactogenic receptors

The lactogenic activity (L.A.) of oPRL and hGH derivatives obtained by chemical modifications of lysine residues was studied by radioreceptor assay. Control treatment with borohydride had a slight effect on the L.A. of hGH but drastically reduced the oPRL activity; this latter was preserved in the presence of iodoacetamide. Methylation, ethylation, guanidination and acetimidination affected the L.A. of both hormones as a function of the degree of modification. The structure-binding relationships to the lactogenic receptors are discussed, suggesting that the lysine or arginine residues in homologous positions 42, 51, 73, 128, 146 of oPRL and 47, 50, 73, 128, 147 of hGH might be particularly involved.     

Dispersed mammary epithelial cells. Receptors of lactogenic hormones in virgin, pregnant, and lactating rabbits.

The number and affinity of binding sites for lactogenic hormones have been determined in dispersed mammary cells from virgin, pregnant, and lactating rabbits. Dispersed epithelial cells, prepared from mammary glands by enzyme digestion, calcium chelation, and gentle shearing, were separated from nonepithelial cells by density centrifugation. 125I-labeled ovine prolactin (oPRL) and 125I-labeled human growth hormone (/GH) were used as tracers. Association and dissociation of 125I-oPRL or 125I-hGH were time- and temperature-dependent. The rate of association followed a second order reversible reaction with a rate constant of approximately 0.5 at 4 degrees C, approximately 2.0 at 23 degrees C, and approximately 9 x 10(7) M-1 min-1 at 37 degrees C. Maximum binding was achieved after 120 h at 4 degrees C, 48 h at 23 degrees C, and 2 to 4 h at 37 degrees C. Dissociation of 125I-oPRL or hGH from cells by unlabeled oPRL was complete at 4 degrees C after 160 h, following a first order reaction (5-1 = 9.9 x 10(-5) min) and incomplete at 23 degrees C and 37 degrees C even after prolonged time. Internalization of receptor-bound 125I-oPRL was studied by quantitative electron microscope autoradiography. Grain distribution over- and volume densities of cellular organelles was analyzed as a function of time and temperature. At 37 degrees C, there was a rapid and specific translocation of lactogenic hormones to intracellular organelles. Autoradiographic grains were found associated with vesicles, Golgi elements, lysosome-like structures, and the nucleus. One class of high affinity binding sites was estimated from Scatchard plot and direct kinetic analyses at 4 degrees C. Whereas the apparent affinity constant (approximately 10(10) M-1) did not change significantly throughout pregnancy and early lactation, the number of receptors extrapolated from Scatchard plots at 4 degrees C varied in an inverse relation to serum progesterone concentration. Thus, approximately 1900 sites were detected in virgin rabbits (progesterone, approximately 200 pg/ml), and midpregnancy (progesterone, approximately 15,000 pg/ml), and approximately 1800 during early lactation (progesterone, approximately 500 pg/ml). The binding properties of lactogenic hormones to dispersed cells was compared with those to Triton X-100 solubilized microsomal membrane preparations. Good correlation between the two systems was found indicating that cell dispersion did not alter binding properties. Our results indicate that dispersed mammary cells bind lactogenic hormones in a saturable and reversible process, that the number of exposed receptors varies throughout gestation and lactation, and finally that lactogenic hormones are internalized following interaction with their membrane receptors.